All Stories

  1. Modeling demographic-driven vegetation dynamics and ecosystem biogeochemical cycling in NASA GISS's Earth system model (ModelE-BiomeE v.1.0)

    Article • Geoscientific Model Development, November 2022, Copernicus GmbH

    Ensheng Weng

  2. Modeling demographic-driven vegetation dynamics and ecosystem biogeochemical cycling in NASA GISS’s Earth system model (ModelE-BiomeE v.1.0)

    Article • March 2022, Copernicus GmbH

    Ensheng Weng

  3. A model-independent data assimilation (MIDA) module and its applications in ecology

    Article • Geoscientific Model Development, August 2021, Copernicus GmbH

    Ensheng Weng

  4. A Model-Independent Data Assimilation (MIDA) module and its applications in ecology

    Article • April 2021, Copernicus GmbH

    Ensheng Weng

  5. Does forest growth acceleration lead to denser stands? Insights from Swiss forests and mechanistic modelling

    Article • March 2021, Copernicus GmbH

    Ensheng Weng

  6. Robust leaf trait relationships across species under global environmental changes

    Article • Nature Communications, June 2020, Springer Science + Business Media

    Ensheng Weng

  7. Competition alters predicted forest carbon cycle responses to nitrogen availability and elevated CO<sub>2</sub>: simulations using an explicitly competitive, game-theoretic vegetation demographic model

    Article • Biogeosciences, December 2019, Copernicus GmbH

    Ensheng Weng

  8. Increasing impacts of extreme droughts on vegetation productivity under climate change

    Article • Nature Climate Change, November 2019, Springer Science + Business Media

    Ensheng Weng

  9. Growing‐season temperature and precipitation are independent drivers of global variation in xylem hydraulic conductivity

    Article • Global Change Biology, November 2019, Wiley

    Ensheng Weng

  10. Competition alters predicted forest carbon cycle responses to nitrogen availability and elevated CO2: simulations using an explicitly competitive, game-theoretic vegetation demographic model

    Article • February 2019, Copernicus GmbH

    Ensheng Weng

  11. Supplementary material to "Competition alters predicted forest carbon cycle responses to nitrogen availability and elevated CO2: simulations using an explicitly competitive, game-theoretic vegetation demographic model"

    Article • February 2019, Copernicus GmbH

    Ensheng Weng

  12. Carbon–nitrogen coupling under three schemes of model representation: a traceability analysis

    Article • Geoscientific Model Development, November 2018, Copernicus GmbH

    Ensheng Weng

  13. Carbon-nitrogen coupling under three schemes of model representation: Traceability analysis

    Article • March 2018, Copernicus GmbH

    Ensheng Weng

  14. Carbon-nitrogen coupling under three schemes of model representation: Traceability analysis

    Article • March 2018, Copernicus GmbH

    Ensheng Weng

  15. Vegetation demographics in Earth System Models: A review of progress and priorities

    Article • Global Change Biology, October 2017, Wiley

    Ensheng Weng, Marcos Longo

  16. Predicting vegetation type through physiological and environmental interactions with leaf traits: evergreen and deciduous forests in an earth system modeling framework

    Article • Global Change Biology, November 2016, Wiley

    Ensheng Weng

  17. Scaling from individual trees to forests in an Earth system modeling framework using a mathematically tractable model of height-structured competition

    Article • Biogeosciences, May 2015, Copernicus GmbH

    Ensheng Weng

  18. Scaling from individuals to ecosystems in an Earth System Model using a mathematically tractable model of height-structured competition for light

    Article • December 2014, Copernicus GmbH

    Ensheng Weng

  19. Supplementary material to "Scaling from individuals to ecosystems in an Earth System Model using a mathematically tractable model of height-structured competition for light"

    Article • December 2014, Copernicus GmbH

    Ensheng Weng